Memristor Multiport Readout: A Closed-Form Solution for Sneak Paths

Author

Zidan, Mohammed Affan ; Eltawil, Ahmed M. ; Kurdahi, Fadi ; Fahmy, Hossam A. H. ; Salama, Khaled N.

Author_Institution

Electr. Eng. Program, King Abdullah Univ. of Sci. & Technol., Thuwal, Saudi Arabia

Volume

13

Issue

2

fYear

2014

fDate

Mar-14

Firstpage

274

Lastpage

282

Abstract

In this paper, we introduce for the first time, a closed-form solution for the memristor-based memory sneak paths without using any gating elements. The introduced technique fully eliminates the effect of sneak paths by reading the stored data using multiple access points and evaluating a simple addition/subtraction on the different readings. The new method requires fewer reading steps compared to previously reported techniques, and has a very small impact on the memory density. To verify the underlying theory, the proposed system is simulated using Synopsys HSPICE showing the ability to achieve a 100% sneak-path error-free memory. In addition, the effect of quantization bits on the system performance is studied.

Keywords

memristors; readout electronics; storage management chips; Synopsys HSPICE; closed-form solution; memory density; memristor multiport readout; memristor-based memory sneak paths; multiple access points; quantization bit effect; sneak-path error-free memory; Arrays; Equations; Mathematical model; Memristors; Microprocessors; Resistance; Memory; memristor; sneak paths;

fLanguage

English

Journal_Title

Nanotechnology, IEEE Transactions on

Publisher

ieee

ISSN

1536-125X

Type

jour

DOI

10.1109/TNANO.2014.2299558

Filename

6709781